...RIVERSIDE Calif. A team of scientists at the University of Californi...The three-year project funded by a $1 million grant from the a href...Led by a href http://facultydirectory.ucr.edu/cgi-bin/pub/public_ind...Transposable elements (TEs) play vital roles in gene and genome evolut...

RIVERSIDE, Calif. A team of scientists at the University of California, Riverside has begun working on a mosquito research project that, if successful, will provide valuable genetic resources capable of transforming the way mosquito research is conducted around the world.

The three-year project, funded by a $1 million grant from the W. M. Keck Foundation, commenced this month.

Led by Susan R. Wessler, who holds a University of California President's Chair and is a distinguished professor of genetics in the Department of Botany and Plant Sciences, the researchers will study mosquito genome sequences to identify "transposable elements" DNA pieces that can move from one genomic location to another.

Transposable elements (TEs) play vital roles in gene and genome evolution by changing DNA amount and building up mutations. They contribute the raw material used by plants and animals to adapt to an ever changing environment. They are the most abundant component of the genomes of virtually all eukaryotes, accounting for almost 50 percent of the human genome.

"The mosquito genome-wide immune system is designed to inactivate TEs, and functions like a surveillance system," said Wessler, a world leader in the computational and experimental analysis of TEs. "In this project, when we search for TEs that can move within and between mosquito chromosomes, we will focus on endogenous mosquito TEs those encoded by the mosquito genome that have adapted to overcome the mosquitoes' immune systems. These TEs are not inactivated and may play a role in how mosquitoes adapt to their environment."

Specifically, Wessler and her team will focus on a type of TE called miniature inverted repeat transposable element, or MITE, discovered more than two decades ago in Wessler's laboratory. MITEs are known to be especially abundant in the three sequenced mosquito genomes those of Anopheles gambiae (responsible for the spread of malaria); Aedes aegypti (responsible for the spread of yellow fever, dengue and multiple forms of encephalitis); and Culex quinquefasciatus (responsible for the spread of many types of encephalitis and lymphatic filariasis).

"MITEs have evolved ingenious mechanisms to spread through mosquito genomes and overcome the mosquitoes' immunity," Wessler explained. "We plan to catch a mosquito MITE that is active or 'amplifying,' meaning a MITE that is increasing the number of its copies. Such a MITE can help us understand at the molecular level how mosquitoes adapt to their nutritional and external environments and go on to vector diseases. It can also clue us on how mosquitoes could be genetically altered as a means to control the spread of disease."

According to Wessler, the project is considered "high risk" in that there is no guarantee that active MITEs will be found in mosquito genomes.

"This is possibly why this project would not be funded by federal agencies," she said. "Past failures have led most in the field of mosquito biology to abandon TEs as valuable tools in genetic research, despite their use as powerful genetic tools in many other organisms."

Wessler, however, remains optimistic. Her team includes Peter Atkinson, a professor of entomology and an expert in mosquito genetics and genomics. His lab pioneered the development of a technique for introducing foreign DNA into mosquito genomes and has developed several active TEs. Most recently his lab led the successful international consortium that published the genome sequence of Culex quinquefasciatus in 2010. Wessler and Atkinson will be joined by Jason Stajich, an assistant professor of plant pathology and microbiology and an expert in bioinformatics, evolutionary genomics and next generation sequencing analysis.

All three researchers are members of UCR's Institute for Integrative Genome Biology and conduct research work in a building designed to facilitate and encourage interdisciplinary work. Stajich's laboratory is on the first floor of the Genomics building, Atkinson's is on the second floor, and Wessler's is on the fourth floor.

"Close proximity allows for frequent interaction and collaboration, which is how modern science is best done," said Wessler, who came to UC Riverside from the University of Georgia in 2010. "We will take full advantage of the proximity our building affords and leverage the expertise of our three laboratories to identify the needle in the haystack: active MITEs in the mosquito genome. While it's true the project is high risk, a positive outcome would have considerable impact within the mosquito research community, leading to a renewed interest and use of transposable elements as research tools for the genetic manipulation of mosquitoes."

The researchers also plan to host on campus an annual seminar in transposable elements to present and discuss results of their research with colleagues in their fields.

Wessler is a member of the National Academy of Sciences (NAS) and a fellow of the American Academy of Arts and Sciences. This week, she was elected home secretary of the NAS. Atkinson, the director of UCR's Center for Disease Vector Research, was a member of the National Institute of Allergy and Infectious Diseases study section on vector biology for five years; he chaired the panel for two years. Stajich is an associate editor at Eukaryotic Cell and a section editor at Public Library of Science One. They will be assisted in the research by three postdoctoral fellows, yet to be appointed.

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